lldb/examples/python/disasm-stress-test.py - llvm-project - Git at Google

 #!/usr/bin/env python

 import argparse
 import datetime
 import re
 import subprocess
 import sys
 import time

 parser = argparse.ArgumentParser(
     description="Run an exhaustive test of the LLDB disassembler for a specific architecture.")

 parser.add_argument(
     '--arch',
     required=True,
     action='store',
     help='The architecture whose disassembler is to be tested')
 parser.add_argument(
     '--bytes',
     required=True,
     action='store',
     type=int,
     help='The byte width of instructions for that architecture')
 parser.add_argument(
     '--random',
     required=False,
     action='store_true',
     help='Enables non-sequential testing')
 parser.add_argument(
     '--start',
     required=False,
     action='store',
     type=int,
     help='The first instruction value to test')
 parser.add_argument(
     '--skip',
     required=False,
     action='store',
     type=int,
     help='The interval between instructions to test')
 parser.add_argument(
     '--log',
     required=False,
     action='store',
     help='A log file to write the most recent instruction being tested')
 parser.add_argument(
     '--time',
     required=False,
     action='store_true',
     help='Every 100,000 instructions, print an ETA to standard out')
 parser.add_argument(
     '--lldb',
     required=False,
     action='store',
     help='The path to LLDB.framework, if LLDB should be overridden')

 arguments = sys.argv[1:]

 arg_ns = parser.parse_args(arguments)


 def AddLLDBToSysPathOnMacOSX():
     def GetLLDBFrameworkPath():
         lldb_path = subprocess.check_output(["xcrun", "-find", "lldb"])
         re_result = re.match("(.*)/Developer/usr/bin/lldb", lldb_path)
         if re_result is None:
             return None
         xcode_contents_path = re_result.group(1)
         return xcode_contents_path + "/SharedFrameworks/LLDB.framework"

     lldb_framework_path = GetLLDBFrameworkPath()

     if lldb_framework_path is None:
         print("Couldn't find LLDB.framework")
         sys.exit(-1)

     sys.path.append(lldb_framework_path + "/Resources/Python")

 if arg_ns.lldb is None:
     AddLLDBToSysPathOnMacOSX()
 else:
     sys.path.append(arg_ns.lldb + "/Resources/Python")

 import lldb

 debugger = lldb.SBDebugger.Create()

 if debugger.IsValid() == False:
     print("Couldn't create an SBDebugger")
     sys.exit(-1)

 target = debugger.CreateTargetWithFileAndArch(None, arg_ns.arch)

 if target.IsValid() == False:
     print("Couldn't create an SBTarget for architecture " + arg_ns.arch)
     sys.exit(-1)


 def ResetLogFile(log_file):
     if log_file != sys.stdout:
         log_file.seek(0)


 def PrintByteArray(log_file, byte_array):
     for byte in byte_array:
         print(hex(byte) + " ", end=' ', file=log_file)
     print(file=log_file)


 class SequentialInstructionProvider:

     def __init__(self, byte_width, log_file, start=0, skip=1):
         self.m_byte_width = byte_width
         self.m_log_file = log_file
         self.m_start = start
         self.m_skip = skip
         self.m_value = start
         self.m_last = (1 << (byte_width * 8)) - 1

     def PrintCurrentState(self, ret):
         ResetLogFile(self.m_log_file)
         print(self.m_value, file=self.m_log_file)
         PrintByteArray(self.m_log_file, ret)

     def GetNextInstruction(self):
         if self.m_value > self.m_last:
             return None
         ret = bytearray(self.m_byte_width)
         for i in range(self.m_byte_width):
             ret[self.m_byte_width - (i + 1)] = (self.m_value >> (i * 8)) & 255
         self.PrintCurrentState(ret)
         self.m_value += self.m_skip
         return ret

     def GetNumInstructions(self):
         return (self.m_last - self.m_start) / self.m_skip

     def __iter__(self):
         return self

     def next(self):
         ret = self.GetNextInstruction()
         if ret is None:
             raise StopIteration
         return ret


 class RandomInstructionProvider:

     def __init__(self, byte_width, log_file):
         self.m_byte_width = byte_width
         self.m_log_file = log_file
         self.m_random_file = open("/dev/random", 'r')

     def PrintCurrentState(self, ret):
         ResetLogFile(self.m_log_file)
         PrintByteArray(self.m_log_file, ret)

     def GetNextInstruction(self):
         ret = bytearray(self.m_byte_width)
         for i in range(self.m_byte_width):
             ret[i] = self.m_random_file.read(1)
         self.PrintCurrentState(ret)
         return ret

     def __iter__(self):
         return self

     def next(self):
         ret = self.GetNextInstruction()
         if ret is None:
             raise StopIteration
         return ret

 log_file = None


 def GetProviderWithArguments(args):
     global log_file
     if args.log is not None:
         log_file = open(args.log, 'w')
     else:
         log_file = sys.stdout
     instruction_provider = None
     if args.random:
         instruction_provider = RandomInstructionProvider(args.bytes, log_file)
     else:
         start = 0
         skip = 1
         if args.start is not None:
             start = args.start
         if args.skip is not None:
             skip = args.skip
         instruction_provider = SequentialInstructionProvider(
             args.bytes, log_file, start, skip)
     return instruction_provider

 instruction_provider = GetProviderWithArguments(arg_ns)

 fake_address = lldb.SBAddress()

 actually_time = arg_ns.time and not arg_ns.random

 if actually_time:
     num_instructions_logged = 0
     total_num_instructions = instruction_provider.GetNumInstructions()
     start_time = time.time()

 for inst_bytes in instruction_provider:
     if actually_time:
         if (num_instructions_logged != 0) and (
                 num_instructions_logged % 100000 == 0):
             curr_time = time.time()
             elapsed_time = curr_time - start_time
             remaining_time = float(
                 total_num_instructions - num_instructions_logged) * (
                 float(elapsed_time) / float(num_instructions_logged))
             print(str(datetime.timedelta(seconds=remaining_time)))
         num_instructions_logged = num_instructions_logged + 1
     inst_list = target.GetInstructions(fake_address, inst_bytes)
     if not inst_list.IsValid():
         print("Invalid instruction list", file=log_file)
         continue
     inst = inst_list.GetInstructionAtIndex(0)
     if not inst.IsValid():
         print("Invalid instruction", file=log_file)
         continue
     instr_output_stream = lldb.SBStream()
     inst.GetDescription(instr_output_stream)
     print(instr_output_stream.GetData(), file=log_file)
	#!/usr/bin/env python

	import argparse
	import datetime
	import re
	import subprocess
	import sys
	import time

	parser = argparse.ArgumentParser(
	description="Run an exhaustive test of the LLDB disassembler for a specific architecture.")

	parser.add_argument(
	'--arch',
	required=True,
	action='store',
	help='The architecture whose disassembler is to be tested')
	parser.add_argument(
	'--bytes',
	required=True,
	action='store',
	type=int,
	help='The byte width of instructions for that architecture')
	parser.add_argument(
	'--random',
	required=False,
	action='store_true',
	help='Enables non-sequential testing')
	parser.add_argument(
	'--start',
	required=False,
	action='store',
	type=int,
	help='The first instruction value to test')
	parser.add_argument(
	'--skip',
	required=False,
	action='store',
	type=int,
	help='The interval between instructions to test')
	parser.add_argument(
	'--log',
	required=False,
	action='store',
	help='A log file to write the most recent instruction being tested')
	parser.add_argument(
	'--time',
	required=False,
	action='store_true',
	help='Every 100,000 instructions, print an ETA to standard out')
	parser.add_argument(
	'--lldb',
	required=False,
	action='store',
	help='The path to LLDB.framework, if LLDB should be overridden')

	arguments = sys.argv[1:]

	arg_ns = parser.parse_args(arguments)


	def AddLLDBToSysPathOnMacOSX():
	def GetLLDBFrameworkPath():
	lldb_path = subprocess.check_output(["xcrun", "-find", "lldb"])
	re_result = re.match("(.*)/Developer/usr/bin/lldb", lldb_path)
	if re_result is None:
	return None
	xcode_contents_path = re_result.group(1)
	return xcode_contents_path + "/SharedFrameworks/LLDB.framework"

	lldb_framework_path = GetLLDBFrameworkPath()

	if lldb_framework_path is None:
	print("Couldn't find LLDB.framework")
	sys.exit(-1)

	sys.path.append(lldb_framework_path + "/Resources/Python")

	if arg_ns.lldb is None:
	AddLLDBToSysPathOnMacOSX()
	else:
	sys.path.append(arg_ns.lldb + "/Resources/Python")

	import lldb

	debugger = lldb.SBDebugger.Create()

	if debugger.IsValid() == False:
	print("Couldn't create an SBDebugger")
	sys.exit(-1)

	target = debugger.CreateTargetWithFileAndArch(None, arg_ns.arch)

	if target.IsValid() == False:
	print("Couldn't create an SBTarget for architecture " + arg_ns.arch)
	sys.exit(-1)


	def ResetLogFile(log_file):
	if log_file != sys.stdout:
	log_file.seek(0)


	def PrintByteArray(log_file, byte_array):
	for byte in byte_array:
	print(hex(byte) + " ", end=' ', file=log_file)
	print(file=log_file)


	class SequentialInstructionProvider:

	def __init__(self, byte_width, log_file, start=0, skip=1):
	self.m_byte_width = byte_width
	self.m_log_file = log_file
	self.m_start = start
	self.m_skip = skip
	self.m_value = start
	self.m_last = (1 << (byte_width * 8)) - 1

	def PrintCurrentState(self, ret):
	ResetLogFile(self.m_log_file)
	print(self.m_value, file=self.m_log_file)
	PrintByteArray(self.m_log_file, ret)

	def GetNextInstruction(self):
	if self.m_value > self.m_last:
	return None
	ret = bytearray(self.m_byte_width)
	for i in range(self.m_byte_width):
	ret[self.m_byte_width - (i + 1)] = (self.m_value >> (i * 8)) & 255
	self.PrintCurrentState(ret)
	self.m_value += self.m_skip
	return ret

	def GetNumInstructions(self):
	return (self.m_last - self.m_start) / self.m_skip

	def __iter__(self):
	return self

	def next(self):
	ret = self.GetNextInstruction()
	if ret is None:
	raise StopIteration
	return ret


	class RandomInstructionProvider:

	def __init__(self, byte_width, log_file):
	self.m_byte_width = byte_width
	self.m_log_file = log_file
	self.m_random_file = open("/dev/random", 'r')

	def PrintCurrentState(self, ret):
	ResetLogFile(self.m_log_file)
	PrintByteArray(self.m_log_file, ret)

	def GetNextInstruction(self):
	ret = bytearray(self.m_byte_width)
	for i in range(self.m_byte_width):
	ret[i] = self.m_random_file.read(1)
	self.PrintCurrentState(ret)
	return ret

	def __iter__(self):
	return self

	def next(self):
	ret = self.GetNextInstruction()
	if ret is None:
	raise StopIteration
	return ret

	log_file = None


	def GetProviderWithArguments(args):
	global log_file
	if args.log is not None:
	log_file = open(args.log, 'w')
	else:
	log_file = sys.stdout
	instruction_provider = None
	if args.random:
	instruction_provider = RandomInstructionProvider(args.bytes, log_file)
	else:
	start = 0
	skip = 1
	if args.start is not None:
	start = args.start
	if args.skip is not None:
	skip = args.skip
	instruction_provider = SequentialInstructionProvider(
	args.bytes, log_file, start, skip)
	return instruction_provider

	instruction_provider = GetProviderWithArguments(arg_ns)

	fake_address = lldb.SBAddress()

	actually_time = arg_ns.time and not arg_ns.random

	if actually_time:
	num_instructions_logged = 0
	total_num_instructions = instruction_provider.GetNumInstructions()
	start_time = time.time()

	for inst_bytes in instruction_provider:
	if actually_time:
	if (num_instructions_logged != 0) and (
	num_instructions_logged % 100000 == 0):
	curr_time = time.time()
	elapsed_time = curr_time - start_time
	remaining_time = float(
	total_num_instructions - num_instructions_logged) * (
	float(elapsed_time) / float(num_instructions_logged))
	print(str(datetime.timedelta(seconds=remaining_time)))
	num_instructions_logged = num_instructions_logged + 1
	inst_list = target.GetInstructions(fake_address, inst_bytes)
	if not inst_list.IsValid():
	print("Invalid instruction list", file=log_file)
	continue
	inst = inst_list.GetInstructionAtIndex(0)
	if not inst.IsValid():
	print("Invalid instruction", file=log_file)
	continue
	instr_output_stream = lldb.SBStream()
	inst.GetDescription(instr_output_stream)
	print(instr_output_stream.GetData(), file=log_file)